JP2004298347A - Washer - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To efficiently and forcedly drain washing water in a washing tank without using a large pump. <P>SOLUTION: This washer is provided with: washing nozzles 20 and 22 for washing by jetting the washing water in a washing chamber 2; rinsing nozzles 21 and 23 for jetting rinsing water; a washing tank 9 which opens on the inner and lower side of the washing chamber 2 for storing the washing water and to receive the washing water etc. jetted from an upper side; a rinsing tank 25 for storing the rinsing water; a washing pump 27 for feeding the washing water in the washing tank 9 to the washing nozzle; a rinsing pump 29 for feed the rinsing water in the rinsing tank 25 to the rinsing nozzle; a drain pump 42 for forcedly draining the washing water in the washing tank 9; and a controller 60 for controlling the operation of the respective pumps. The controller 60 operates the rinsing pump 29 to carry out a rinsing process, and operates the drain pump 42 longer than the rinsing pump 29 with the operation of the rinsing pump 29. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a washing machine for washing and rinsing an object to be washed such as tableware in a washing room formed in a main body, and in particular, forcibly uses washing water and rinsing water stored in a washing tank. The present invention relates to a washing machine provided with a drainage mechanism for draining water to a washing machine.
[0002]
[Prior art]
Conventionally, dishwashers installed in hotels, restaurants, cafeterias, etc., have washing nozzles and rinsing nozzles arranged above and below the washing room, and in the washing process, the washing water stored in the washing tank by the washing pump is used. The rinsing water is supplied from the rinsing nozzle to the rinsing nozzle by rinsing the rinsing water from the rinsing tank storing the rinsing water in the rinsing step, while supplying the rinsing water to the rinsing nozzle and spraying the rinsing water onto the tableware stored in the cleaning chamber. A rinsing method is adopted in which washing water attached to tableware is rinsed by feeding and spraying.
[0003]
Further, the upper surface of the washing tank is opened into the washing chamber, and the washing water jetted from the washing nozzle is collected in the washing tank and is used repeatedly. The separated water flows into an overflow pipe provided in the washing tank, reaches a drain hose through the pipe, and is drained to the outside (see Patent Document 1).
[0004]
However, in the conventional washing machine, the washing water in the washing tank is provided with a drainage facility on the installation floor because the water flowing into the overflow pipe is drained to the outside through a drainage hose by its own weight. Otherwise, there is a problem that the washing water in the washing tank cannot be smoothly disposed of. On the other hand, store facilities such as small-scale restaurants are provided with sinks, but are often not provided with drainage facilities on floors. Therefore, there is a problem that the washing machine cannot be installed in such a store.
[0005]
Therefore, a washing machine having a function of forcibly discharging the washing water in the washing tank to the outside by a drainage means such as a drainage pump has been developed. In such a washing machine, a drain pump is connected to a drain pipe provided in the washing tank, and the washing water in the washing tank is guided to a sink or the like via a drain hose.
[0006]
[Patent Document 1]
JP-A-11-1970085
[0007]
[Problems to be solved by the invention]
In the conventional washing machine, in the rinsing step of the washing operation, rinsing water is injected into the washing chamber by the operation of the rinsing pump and collected in the washing tank. This rinse water is added to the wash water, so the wash water level in the wash tank rises.However, by operating the drain pump connected to the wash tank, the additional washing is performed. Water is discharged to the outside. Thereby, the water level in the washing tank is regulated to a constant value.
[0008]
Here, as the drain pump, the rinse water that has flowed into the cleaning tank by the rinse pump must be discharged to the outside. Therefore, conventionally, a drain pump having the same capacity as the rinse pump has been used. However, a pump having the same performance as a rinsing pump is a relatively large-sized pump, so that it is difficult to accommodate the pump in the main body, and there is a problem that the apparatus itself becomes large. In addition, there is a problem that the cost is increased by additionally arranging a large pump.
[0009]
In particular, since a store in which a washing machine equipped with the forced drainage mechanism is installed is a relatively small store, there is also a problem that it is difficult to secure a space for installing a relatively large device.
[0010]
Further, as described above, there is an inconvenience that the layout in the main body and the dimensions of the main body must be significantly changed between the cleaning machine provided with the exceptional forced drainage mechanism and the cleaning machine not provided with the drainage mechanism.
[0011]
Therefore, the present invention has been made to solve the conventional technical problem, and provides a washing machine capable of efficiently forcibly draining washing water in a washing tank without using a large pump. The purpose is to:
[0012]
[Means for Solving the Problems]
The washing machine of the present invention has a washing nozzle for spraying washing water to a washing target such as tableware in a washing chamber formed in a main body, and a washing nozzle for jetting rinsing water to a washing target in a washing chamber. A rinsing nozzle to be performed, a cleaning tank that opens below the cleaning chamber and stores the cleaning water, receives the cleaning water injected from the cleaning nozzle and the rinsing water injected from the rinsing nozzle, and a rinsing for storing the rinsing water. A washing pump for feeding the washing water in the tank, washing tank to the washing nozzle, a rinsing pump for sending the rinsing water in the rinsing tank to the rinsing nozzle, and a drain for forcibly discharging the washing water in the washing tank. A pump and control means for controlling the operation of each pump, wherein the control means operates the cleaning pump during the cleaning operation to execute the cleaning step, and operates the rinsing pump. Since the rinsing step is performed and the drainage pump is operated longer than the rinse pump with the operation of the rinse pump, the drainage of the washing tank can be performed using a relatively small drainage pump. In addition, it is possible to reduce the cost and avoid the disadvantage that the apparatus itself becomes large.
[0013]
In the washing machine according to the second aspect of the present invention, the control means starts the operation of the drainage pump in the rinsing step later than the operation start of the rinse pump, so that the drainage pump sucks air and cannot operate normally. Inconvenience can be avoided.
[0014]
According to the third aspect of the present invention, in the above invention, the operating time of the rinsing pump is variable, and the control means changes the operating time of the drain pump according to the operating time of the rinsing pump. The rinsing time can be changed according to the state of the object to be cleaned, and the convenience is improved. In addition, since the operating time of the drainage pump is changed according to the operating time of the rinsing pump, the setting work at the time of changing the operating time can be simplified, and water leakage due to forgetting to change the operating time of the drainage pump can be achieved. Can be prevented.
[0015]
According to a fourth aspect of the present invention, in the above invention, the control means stops the drain pump when the cleaning step is started while only the drain pump is operating. , The water level in the cleaning tank is changed by operating the cleaning pump, whereby it is possible to prevent the drain pump from running idle. As a result, it is possible to suppress occurrence of a failure of the drain pump and shortening of life.
[0016]
According to a fifth aspect of the present invention, in the above invention, the control means performs a predetermined number of hot water supply operations for operating the rinse pump to supply hot water into the cleaning tank, and operates the drain pump during the hot water supply operation. Therefore, it is possible to suppress the rinsing water stored in the washing tank from leaking from the washing tank, leaking, and overflowing to the outside.
[0017]
In the washing machine according to the sixth aspect of the present invention, the control means operates the drainage pump a predetermined number of times before the number of times of performing the hot water supply operation ends, so that the washing water is predetermined in the washing tank by the hot water supply operation. In addition to prohibiting the operation of the drain pump in a state where the water is stored up to the reference water level, the washing water exceeding the reference water level can be drained to the outside by the drain pump. Accordingly, when the hot water supply operation is performed up to the reference water level, the drain pump can be stopped, and the idle operation of the drain pump can be suppressed. Further, the drainage of the washing water exceeding the reference water level can be smoothly performed by operating the drainage pump.
[0018]
In the washing machine according to the seventh aspect of the present invention, in the above, the control means continues the operation of the drain pump for a predetermined time after the end of the final hot water supply operation and operates the washing pump after the end of the drain pump. When the operation of the cleaning pump is started during the operation of the drain pump, the water level in the cleaning tank fluctuates, so that the disadvantage of the drain pump running idle can be avoided.
[0019]
The washing machine of the invention according to claim 8 is provided with an overflow prevention sensor for preventing overflow of the washing water in the washing tank in each of the above inventions, and the control means controls the inside of the washing tank based on an output of the overflow prevention sensor. When the water level rises above the predetermined value, the drain pump is operated, so that the water level in the washing tank can be prevented from rising above the predetermined value. Thereby, the inconvenience of the object to be cleaned being immersed in the washed water can be avoided, and the object to be cleaned can be suitably cleaned.
[0020]
In the washing machine according to the ninth aspect of the present invention, in the above, the control means inhibits the operation of the rinsing pump when the drain pump is operating, so that the water level in the washing tank rises due to the operation of the rinsing pump. It can be suppressed.
[0021]
In the washing machine according to the tenth aspect of the present invention, when the operation of the rinsing pump is prohibited, the control means prohibits the shift to the cleaning process, so that the rinsing pump is not operated and the object to be cleaned is rinsed. It is possible to avoid starting the cleaning step in a state where finishing in the step is not possible.
[0022]
According to an eleventh aspect of the present invention, in the cleaning device according to the eighth, ninth or tenth aspect, the control means includes a power switch, and the water level in the cleaning tank becomes higher than a predetermined value based on an output of the overflow prevention sensor. When the water level rises, the drainage pump is operated even when the power switch is turned off. Can be operated, and the inconvenience of water spilling out can be avoided even when the washing machine is not used.
[0023]
According to a twelfth aspect of the present invention, in the above invention, the control means performs a drainage operation of operating the drainage pump to discharge the washing water in the cleaning tank, and the operation time of the drainage pump is variable. The operating time of the drainage pump can be changed according to the time required for drainage, which varies depending on the degree of contamination of the washing water, and the drainage pump cannot completely drain during the operating time of the drainage pump. The inconvenience of remaining washing water can be avoided.
[0024]
According to a thirteenth aspect of the present invention, in the above invention, the control means operates the rinsing pump during the drainage operation, so that the cleaning tank and the drainage path can be washed with relatively clean rinsing water. Thus, the inside of the washing tank and the drainage path can be maintained in a sanitary manner.
[0025]
In the washing machine according to the fourteenth aspect of the present invention, the control means operates the drainage pump from the start of the drainage operation, stops the drainage pump to operate the rinse pump for a predetermined time, and controls the rinse pump. After the stop, the drainage pump is operated again longer than the operation time of the rinse pump. Therefore, even if the drainage pump is configured by a pump having a smaller capacity than the rinse pump, the drainage of the cleaning water in the cleaning tank is performed. Will be able to do.
[0026]
The washing machine of the invention of claim 15 is the invention of claim 12, claim 13 or claim 14, wherein the control means includes a power switch, and executes the operation of the drain pump even when the power switch is turned off. The inconvenience of terminating the operation with the washing water remaining in the washing tank can be avoided.
[0027]
According to a sixteenth aspect of the present invention, in the above invention, when the power switch is turned on from the off state, the control means stops the drain pump, so that the drain operation is erroneously performed. Even in such a case, by stopping the operation of the drain pump, the cleaning water remaining in the cleaning tank can be used for the next cleaning operation.
[0028]
BEST MODE FOR CARRYING OUT THE INVENTION
Next, an embodiment of the present invention will be described in detail with reference to the drawings. FIG. 1 is a front view of a dishwasher DW of the present invention, FIG. 2 is a partially transparent side view of the dishwasher DW, FIG. 3 is a longitudinal side view of the dishwasher DW, and FIG. 4 is a plan view of the dishwasher DW. Is shown. The dishwasher DW of the present invention is an automatic dishwasher that forcibly drains washing water in the washing tank 9 by a drain pump 42 and enables drainage to a sink (not shown). It is suitable to be installed in a kitchen such as a restaurant.
[0029]
In the dishwasher DW, a washing room 2 is formed in a stainless steel inner box 3 opening forward, and a machine room 4 is formed below the inner box 3. An angle member (not shown) extending vertically is attached to both sides of the front end of the inner box 3 and extends to the machine room 4. A stainless steel ceiling is provided above the top plate of the inner box 3 with a space therebetween. A top table (work table) 7 as a wall is provided. Further, exterior panels 8 are attached to the back surface and left and right side surfaces of the inner box 3. The front ends of the left and right exterior panels 8 are connected to the outer edges of the angle members, and the lower portions are located on the left and right of the machine room 4. The rear exterior panel 8 is also located behind the machine room 4, and the upper ends of the exterior panels 8 are connected to the outer edge of the top table 7. The main body 1 of the DW is configured.
[0030]
A door 16 made of stainless steel is attached to the front opening of the inner box 3 so as to be rotatable forward, whereby the front opening of the inner box 3 is openably and closed. A front panel 17 is detachably attached to the front of the machine room 4 so that the inside of the machine room 4 can be easily maintained.
[0031]
A door switch 18 (only FIG. 9 is shown) for detecting the open / closed state of the door 16 is provided at the edge of the exterior panel 8 at a position corresponding to the upper edge of the door 16. A control panel 5 is provided on the front surface of the main body 1, and the control panel 5 is provided with a power switch 6, a start switch 11, a temperature display unit 12, and the like. In this embodiment, a label 13 indicating a drainage procedure, which will be described in detail later, is affixed to the front of the main body 1 and to the side of the control panel 5.
[0032]
The bottom plate 3A of the inner box 3 serving as the bottom surface of the cleaning chamber 2 is formed substantially horizontally slightly behind the front end, and is formed low on the machine chamber 4 side, and is continuous with the cleaning tank 9 opened on the upper surface. I have. That is, the cleaning tank 9 has an open upper surface at the bottom of the cleaning chamber 2. The washing tank 9 may be separate from the bottom plate 3A and connected to the bottom plate 3A, or may be integrally formed with the bottom plate 3A.
[0033]
A filter 10 is detachably provided on the upper edge of the cleaning tank 9, and the filter 10 partitions the cleaning chamber 2 and the cleaning tank 9. The cleaning tank has a larger capacity than a rinsing tank 25 described later.
[0034]
As shown in FIG. 3, an upper cleaning nozzle 20 having a plurality of cleaning nozzle ports 20A... For injecting cleaning water downward is rotatably disposed in the upper portion of the cleaning chamber 2. A slightly lower position is provided with an upper rinse nozzle 21 which rotates concentrically with the upper cleaning nozzle 20. The upper rinsing nozzle 21 has a plurality of rinsing nozzle ports 21A for injecting rinsing water downward.
[0035]
Further, a lower cleaning nozzle 22 having a plurality of cleaning nozzle ports 22A... For injecting cleaning water upward is rotatably disposed in a lower portion of the cleaning chamber 2, and a rinse water is provided slightly above the lower cleaning nozzle 22. Are provided so as to be rotatable concentrically with the lower washing nozzle 22. The lower rinsing nozzle 23 has a plurality of rinsing nozzle ports 23A,.
[0036]
On the other hand, between the upper and lower cleaning nozzles 20 and 22 and the cleaning tank 9, cleaning water of about + 60 ° C. mixed with the detergent stored in the cleaning tank 9 is circulated to the upper and lower cleaning nozzles 20 and 22 via the cleaning pipe 26. A cleaning pump 27 for cleaning is provided. The cleaning pump 27 is provided in the machine room 4 located below the cleaning tank 9. In the machine room 4, a part of a drainage mechanism (details will be described later) which is located below the cleaning tank 9 and forcibly discharges the cleaning water in the cleaning tank 9 to the outside is formed. A drain pump 42 is provided, and a rinse tank 25 for storing high-temperature rinse water of about + 80 ° C. is provided side by side.
[0037]
The rinsing tank 25 has a smaller capacity than that of the washing tank 9. The rinsing water in the rinsing tank 25 is supplied from a not-shown hot water supply device such as an instantaneous water heater via a pipe and an electromagnetic release valve. It is supplied (hot water). A rinsing pipe 28 is connected between the rinsing tank 25 and the upper and lower rinsing nozzles 21 and 23. The rinsing pipe 28 is provided with a rinsing pump 29 for supplying rinsing water stored in the rinsing tank 25 to the upper and lower rinsing nozzles 21 and 23.
[0038]
In this embodiment, an air vent 31 is formed in the upper part of the rinsing tank 25 as shown in FIG. The air vent pipe 30 is freely attached, and is drawn out of the machine room 4 via the connecting member 32. In FIG. 1, the air vent pipe 30 is drawn out of the exterior panel 8 to simplify the configuration, but is drawn out between the inner box 3 and the exterior panel 8 as shown in FIG. It is assumed that The air release pipe 30 is provided so as to rise along the side surface of the main body 1, and the upper end 30 </ b> A of the air release pipe 30 is located above the cleaning chamber 2 and is bent toward the cleaning chamber 2. . Further, it is assumed that the upper end 30A of the air vent pipe 30 is disposed along the wall surface in the cleaning chamber 2 as shown in FIG.
[0039]
Thereby, the inside of the rinsing tank 25 and the inside of the cleaning chamber 2 can be communicated via the air vent pipe 30, and the disadvantage that the inside of the rinsing tank 25, which has been conventionally regarded as a problem, becomes negative pressure can be avoided. Become like Thus, the rinsing pump 29 can be operated stably. In addition, even if the above-mentioned solenoid on-off valve for supplying rinsing water to the rinsing tank 25 fails, the rinsing water supplied to the rinsing tank 25 without applying a load to the rinsing pump 29 whose operation has been stopped. Can be fed into the cleaning chamber 2 via the air release pipe 30.
[0040]
Since the air vent pipe 30 in the present embodiment is detachably provided in the rinse tank 25 via the connecting member 32, the configurations of the rinse tank 25 and the cleaning chamber 2 can be simplified. Further, when performing maintenance of the rinsing tank 25, by removing the connecting member 32 from the air vent 31 and opening the front panel 17, the rinsing tank 25 can be pulled out forward, and maintenance can be easily performed. Will be able to
[0041]
Further, since the upper end 30A of the air release pipe 30 located in the cleaning chamber 2 is arranged along the wall surface in the cleaning chamber 2 as described above, the upper cleaning nozzle During the operation of the rinsing tank 20, it is possible to avoid the inconvenience that the washing water enters the rinsing tank 25 through the air bleeding pipe 30 and contaminates the rinsing water in the rinsing tank 25.
[0042]
On the other hand, an overflow prevention sensor 35 for preventing overflow of the cleaning water in the cleaning tank 9 is provided on the outer surface of the exterior panel 8 located on the back of the cleaning tank 9. The overflow prevention sensor 35 is constituted by a so-called float switch, and is connected to the back surface of the washing tank 9 via a connecting pipe 36 which opens at a position slightly higher than the reference water level of the washing tank 9. Therefore, the overflow prevention sensor 35 communicates with the cleaning tank 9 at a position slightly higher than the reference water level.
[0043]
As a result, when the water level in the cleaning tank 9 rises, the cleaning water in the cleaning tank 9 flows into the overflow prevention sensor 35 via the connecting pipe 36, and thus the cleaning water in the cleaning tank 9 can be easily formed. Becomes higher than the reference water level. Since the connecting pipe 36 is mounted so as to open at a position slightly higher than the reference water level of the cleaning water in the cleaning tank 9, when the cleaning water is at the reference water level, the cleaning pipe As a result, water does not enter, and the washing water does not enter the overflow prevention sensor 35. Therefore, the accumulation of dirt due to the washing water on the connecting pipe 36 and the overflow prevention sensor 35 can be alleviated, and the failure of the overflow prevention sensor 35 at an early stage can be avoided.
[0044]
Further, in this embodiment, near the opening of the connecting pipe 36 on the cleaning tank 9 side, a connecting pipe cover member 38 that covers the opening of the connecting pipe 36 is provided. Therefore, even in the case where dirt is contained in the wash water in the wash tank 9, the connection pipe cover member 38 suppresses entry of dirt and the like in the wash water into the connection pipe 36. Thus, the failure of the overflow prevention sensor 35 can be suppressed. This allows the overflow prevention sensor 35 to function normally.
[0045]
A sensor cover member 39 for covering the overflow prevention sensor 35 is detachably attached to the overflow prevention sensor 35 as shown in FIG. FIG. 5 shows a perspective view of the sensor cover member 39. The sensor cover member 39 is made of, for example, a hard synthetic resin or the like, and has a substantially U-shaped cross section with the cleaning tank 9 side opened. A flange portion 39A is formed on each side end so as to extend inward vertically, and the flange portion 39A has a cross section extending vertically and projecting toward the cleaning tank 9 side. A substantially crank-shaped rail 39B is attached. The width between the rails 39B and 39B is set to be a width that can be held almost exactly with respect to the lateral dimension of the overflow prevention sensor 35.
[0046]
Thereby, the rails 39B, 39B of the sensor cover member 39 are slid up and down toward the upper end or the lower end of both sides of the overflow prevention sensor 35 attached to the back of the main body 1 so that the sensor cover member 39 is moved up and down. It can be detachably attached to the overflow prevention sensor 35.
[0047]
For this reason, it is possible to avoid a disadvantage that the overflow prevention sensor 35 is exposed, and it is possible to particularly suppress damage to the wiring of the sensor 35 during installation. Further, since the sensor cover member 39 is attached to the overflow prevention sensor 35 so as to be openable and closable, the maintenance of the overflow prevention sensor 35 can be easily performed, and the convenience is improved.
[0048]
In this embodiment, the rails 39B, 39B of the sensor cover member 39 are configured to have a width that enables the rails 39B, 39B to be held almost exactly with respect to the lateral dimension of the overflow prevention sensor 35, and are slid up and down with respect to the sensor 35. It is configured to be movably mounted. In addition, the sensor 39 is configured such that the rails 39B, 39B of the sensor cover member 39 have a width that can be held almost exactly with respect to the vertical dimension of the overflow prevention sensor 35. 35 may be slidably attached to the left and right. In such a case, the connecting pipe 36 connected to the sensor 35 can also be protected.
[0049]
Next, the drainage mechanism (drainage means) of the washing water of the washing tank 9 as described above will be described with reference to FIG. 2 and FIGS. 6 is a sectional view showing a state in which the drainage pump filter set 45 is attached to the washing tank 9, FIG. 7 is a sectional view showing a state in which the drainage pump filter set 45 is detached from the washing tank 9, and FIG. FIG. 4 shows a cross-sectional view of the set 45.
[0050]
A drain port 43 is formed in the bottom surface 9B of the washing tank 9, and a drain connection portion 44 projecting downward is attached to the drain port 43. The drainage pump 44 is connected to the drainage connection part 44 via a pipe (not shown). A drain hose 46 is connected to the outlet side of the drain pump 42 as shown in FIG. 2, and the drain hose 46 is drawn out to the outside, for example, a sink of a kitchen in which the dishwasher DW is installed. I have. Note that the drainage pump 42 used in the present embodiment is a relatively small-sized pump having approximately one third the capacity of the rinsing pump 29.
[0051]
The drainage hose 46 is moved up and down, left and right, and the like by the operation of the drainage pump 42, and is fixed to the angle member constituting the machine room 4 by a fixture 47 in order to suppress formation of a trap. Thus, the drainage of the cleaning water in the cleaning tank 9 can be stably performed by the drainage pump 42. Here, in the present embodiment, the fixing tool 47 for fixing the drain hose 46 is used only for the angle material, but may be provided on the back surface of the main body 1 or the storage part of the drain pump 42 in addition to this. Be good.
[0052]
On the other hand, a drain pipe 50 that is opened up and down is detachably attached to a drain port 43 formed on the bottom surface of the cleaning tank 9 so as to close the drain port 43 via a drain pipe holder 51 that is also opened up and down. It is erected.
[0053]
On the other hand, an opening 9C is formed on the upper surface 9A of the cleaning tank 9 located above the drain port 43, and an arrow-shaped engaging claw 9D is formed near the opening 9C. Then, the drain mounting plate 52 is placed so as to close the opening 9C from above the upper surface 9A. The drain mounting plate 52 also has a drain pipe insertion opening formed therein, and a position corresponding to the engaging claw 9D of the cleaning tank 9 is engaged with the engaging claw 9D in a detachable manner. A hole 52A is formed.
[0054]
On the other hand, at the upper end of the drain pipe 50, the upper surface opening of the drain pipe 50 and the cleaning tank 9 can communicate with each other. In this embodiment, an engaging member 54 composed of a plurality of rod-shaped members is detachably attached. Can be At the lower end of the engagement member 54, a flange portion 54A is formed which extends outward from a drain pipe insertion opening formed in the drain mounting plate 52.
[0055]
In this state, after the upper end of the drain pipe 50 is inserted into the drain pipe insertion opening from below the drain mounting plate 52, the drainage adjuster 53 is mounted on the upper end of the engaging member 54 from above the drain mounting plate 52. In this embodiment, the drainage adjuster 53 is formed of a cube or a rectangular body, and the drain adjuster 53 is provided on the front and rear surfaces of the drainage adjuster 53 or on the drain mounting plate 52 located on the left and right side surfaces. It is assumed that a drainage adjusting tool support member 55 that supports the corner of the drainage adjusting tool 53 is provided after the 53 is lifted up and rotated, for example, by approximately 90 °.
[0056]
In addition, the drain pipe 50 and the drain pipe holder 51 have substantially the same height dimension as the height from the bottom surface 9B to the upper surface 9A of the cleaning tank 9 so as to surround the drain pipe 50 and the drain pipe holder 51. A drain filter 57 is provided. The drain pipe 50, the drain pipe holder 51, the drain mounting plate 52, the drain adjuster 53, and the drain filter 57 constitute a drain pump filter set 45.
[0057]
Then, the drain pipe 50 of the drain pump filter set 45 is inserted into the opening 9C formed on the upper surface 9A of the cleaning tank 9, and the lower end of the drain pipe holder 51 is formed on the drain port formed on the bottom surface 9B of the cleaning tank 9. 43, and the drainage pump filter set 45 is installed in the cleaning tank 9 by engaging the engaging holes 52A formed in the drain mounting plate 52 with the engaging claws 9D formed on the upper surface 9A of the cleaning tank 9. Will be done. At this time, it is assumed that the engaging member 54 holds the drain pipe 50 so that the upper surface opening of the drain pipe 50 is flush with the reference water level of the cleaning water in the cleaning tank 9.
[0058]
With the above configuration, the drain pipe 50 and the drain filter 57 are integrated to form the drain pump filter set 45. Therefore, by installing the drain pump filter set 45 in the drain port 43 of the cleaning tank 9, the drain pump filter set 45 can be easily installed. The drain pipe 50 and the drain filter 57 can be attached to the drain port 43.
[0059]
Here, since the upper end of the drain pipe 50 is open at a position where the cleaning water level of the cleaning tank 9 is regulated to a predetermined water level, the cleaning water exceeding the predetermined water level as shown by an arrow in FIG. It can enter the drain pipe 50 via the filter 57 and be sent out to the drain pump 42 via the drain port 43.
[0060]
Further, the drainage filter 57 is sandwiched between the bottom surface 9B and the top surface 9A of the washing tank 9 in a state where the drainage pump filter set 45 is attached to the washing tank 9, so that when the drainage adjusting tool 53 is pulled upward. Only the drain pipe 50, the drain pipe holder 51, and the engaging member 54 are pulled upward, a space is formed between the drain port 43 and the drain pipe holder 51, and the washing water in the washing tank 9 is removed. As shown by an arrow in FIG. 8, the water can flow out to the drain port 43 through the drain filter 57. Therefore, the wastewater in the washing water can be captured by the drainage filter 57, and the clogging of the drainage port 43 can be suppressed.
[0061]
Further, as described above, since the drainage pump filter set 45 is detachably fixed to the engaging claw 9D formed near the opening 9C of the cleaning tank 9, the drainage pump filter set 45 is fixed to the engaging claw 9D. Thereby, the positioning of the drainage pump filter set 45 can be easily performed. Thereby, the mounting operation can be performed efficiently.
[0062]
Further, since the drainage pump filter set 45 is detachably fixed to the cleaning tank 9, it can be easily removed and maintenance such as cleaning can be performed according to dirt.
[0063]
In this embodiment, a plurality of notches 57A are formed at the lower end of the drain filter 57. Therefore, it is possible to drain the washing water on the bottom surface of the washing tank 9.
[0064]
Next, the control device 60 will be described with reference to FIG. The control device 60 is constituted by a general-purpose microcomputer. The input side of the control device 60 includes a temperature sensor 61 provided in the washing tank 9, a door switch 18, a power switch 6, and a start switch. 11 and an overflow prevention sensor 35 are connected. The output side of the control device 60 is connected to the temperature display section 12, the washing pump 27, the rinsing pump 29, the drain pump 42, and the alarm buzzer 62.
[0065]
With the above configuration, the operation of the dishwasher DW of the present invention will be described with reference to the flowcharts of FIGS. In the cleaning chamber 2 between the upper and lower rinsing nozzles 21 and 23 (upper and lower cleaning nozzles 20 and 22), an object to be cleaned (not shown) made of tableware such as a dish is stored. In addition, the drainage adjuster 53 constituting the drainage mechanism is in a lowered state, and the upper surface opening of the drain pipe 50 is positioned substantially flush with the reference water level of the washing tank 9.
[0066]
First, the hot water supply operation of the dishwasher DW of the present embodiment will be described with reference to FIG. When power switch 6 is turned on in step S1, control device 60 executes the hot water supply operation. In this hot water supply operation, control device 60 starts supplying rinse water to rinse tank 25 from a hot water supply device (not shown). At this time, the hot water supply device supplies heated hot water (+ 80 ° C. or higher) to the rinsing tank 25, so that high-temperature rinsing water is stored in the rinsing tank 25.
[0067]
When a predetermined amount of rinsing water is stored in rinsing tank 25, control device 60 proceeds to step S2 and starts operation (operation) of rinsing pump 29. When the rinsing pump 29 starts operating, high-temperature (+ 80 ° C.) rinsing water in the rinsing tank 25 is supplied to the upper and lower rinsing nozzles 21 and 23 through the rinsing pipe 28. The supplied rinsing water is jetted downward from the rinsing nozzle ports 21A of the upper rinsing nozzle 21 and is jetted upward from the rinsing nozzle ports 23A of the lower rinsing nozzle 23. Then, the injected rinse water falls, passes through the filter 10 and is collected and stored in the cleaning tank 9.
[0068]
When the rinsing water in the rinsing tank 25 is supplied to the rinsing pipe 28 by the operation of the rinsing pump 29, the water level in the rinsing tank 25 decreases. Therefore, in this embodiment, the control device 60 rinses for about 8 seconds. After the operation of the pump 29, the rinse pump 29 is stopped for about 40 seconds. Then, during the stop period of the rinsing pump 29, the supply of the rinsing water from the water heater to the rinsing tank 25 is restarted. Thereafter, the hot water supply cycle is repeated, and the hot water supply to the washing tank 9 is repeated several times, in this embodiment, ten times. At this time, control device 60 determines whether or not the hot water supply cycle has been performed 9 times or more in step S3. If the hot water supply cycle is not more than 9 times, control device 60 returns to step S2.
[0069]
Then, in step S3, when the hot water supply cycle is performed nine times or more, control device 60 proceeds to step S4, and operates drain pump 42. That is, at the time when the hot water supply cycle is performed eight times in the present embodiment, the level of the cleaning water in the cleaning tank 9 is located below the reference water level, and the cleaning is performed by performing the hot water supply cycle nine times. The water level of the washing water in the tank 9 exceeds the reference water level. Therefore, the control device 60 can efficiently drain the cleaning water exceeding the reference water level by operating the drain pump 42 when the water level of the cleaning water in the cleaning tank 9 becomes higher than the reference water level. . This makes it possible to suppress the rinsing water stored in the cleaning tank 9 from leaking out of the cleaning tank 9 and overflowing to the outside.
[0070]
Further, by operating the drainage pump 42 when the level of the cleaning water stored in the cleaning tank 9 does not reach the reference level, it is possible to avoid the disadvantage that the drainage pump 42 runs idle. Become.
[0071]
Thereafter, control device 60 proceeds to step S5 to determine whether or not the tenth hot water supply cycle has been completed, and proceeds to step S6 when the tenth hot water supply cycle has been completed. In step S6, control device 60 stops the operation of rinse pump 29. At this time, the operation of the drain pump 42 is to be continuously performed. Then, in step S7, the control device 60 sets the operation time of the rinse pump 29 to about 8 seconds in one hot-water supply cycle in the present embodiment for only three times the operation time of the rinse pump 29. Determines whether or not approximately 24 seconds have elapsed, and when the time has elapsed, the process proceeds to step S8, and the operation of the drain pump 42 ends.
[0072]
Then, the control device 60 proceeds to step S9, injects a detergent (not shown) into the cleaning tank 9, operates the cleaning pump 27, agitates the cleaning tank 9, and ends the hot water supply operation.
[0073]
Accordingly, when the operation of the cleaning pump 27 is started during the operation of the drain pump 42, the water level in the cleaning tank 9 fluctuates, and it is possible to avoid the disadvantage that the drain pump 42 runs idle. .
[0074]
After that, after finishing the hot water supply operation as described above, control device 60 enters the washing operation standby state. Next, the cleaning operation will be described with reference to FIG. In this washing operation standby state, the power switch 6 is turned on in advance (step S11). Then, in this state, when the start switch 11 is operated (Step S12), the control device 60 starts the cleaning operation. In the cleaning process of the cleaning operation, the control device 60 operates the cleaning pump 27 in step S13 to circulate the cleaning water stored in the cleaning tank 9 from the cleaning pipe 26 to the upper and lower cleaning nozzles 20 and 22. The circulated washing water is jetted downward from the washing nozzle ports 20A,... Of the upper washing nozzle 20, and is jetted upward from the washing nozzle ports 22A,. Is washed, and a part of the washing is used as a rotational driving force of the upper and lower cleaning nozzles 20 and 22, so that the upper and lower cleaning nozzles 20 and 22 rotate. The injected cleaning water is collected in the cleaning tank 9 and circulated again to the upper and lower cleaning nozzles 20 and 22.
[0075]
The control device 60 determines whether a predetermined time, for example, 70 seconds, has elapsed since the operation of the cleaning pump 27 (step S14). After the predetermined time has elapsed, the control device 60 stops the cleaning pump 27. Then, the washing step is completed, and the rinsing step is started through a draining step (step S15) for stopping the operations of the washing pump 27 and the rinsing pump 29 for a predetermined time, for example, 4 seconds.
[0076]
When the operation (operation) of the rinsing pump 29 is started in step S16, the control device 60 supplies the high-temperature (+ 80 ° C.) rinsing water in the rinsing tank 25 to the rinsing nozzle 21 up and down from the rinsing pipe 28 similarly to the above-described hot water supply operation. 23. The supplied rinsing water is jetted downward from the rinsing nozzle port 21A of the upper rinsing nozzle 21, and is jetted upward from the rinsing nozzle port 23A of the lower rinsing nozzle 23 to be sprayed on the object to be cleaned. The rinsing is performed, and a part of the rinsing is used as a rotational driving force of the upper and lower rinsing nozzles 21 and 23, so that the upper and lower rinsing nozzles 21 and 23 rotate.
[0077]
The injected rinse water is similarly collected in the washing tank 9. Since the rinse water is added to the wash water, the wash water level in the wash tank 9 rises. Therefore, after starting the rinsing step, that is, after starting the operation of the rinsing pump 29, the control device 60 operates the drainage pump 42 after a predetermined time, for example, 5 seconds (steps S17 and S18). Further, the control device 60 stops the operation of the rinse pump 29 after a lapse of a predetermined time, for example, 10 seconds, from the start of the operation of the rinse pump 29 (steps S19 and S20). Thereafter, the control device 60 notifies the worker of the end of the cleaning operation by the alarm buzzer 62 (step S21).
[0078]
On the other hand, after a predetermined time from the start of the operation of the drainage pump 42, in this embodiment, three times the operation time of the rinse pump 29, ie, 30 seconds of 10 seconds × 3, The operation of the drain pump 42 is stopped (steps S23 and S24).
[0079]
Accordingly, the control device 60 operates the drain pump 42 longer than the operation time of the rinse pump 29 in accordance with the operation of the rinse pump 29, so that the drainage in the cleaning tank 9 is performed using the relatively small drain pump 42. Can be performed, and it is possible to reduce the cost and avoid the disadvantage that the device itself becomes large.
[0080]
Further, as described above, the control device 60 starts the operation of the drain pump 42 in the rinsing step with a delay from the start of the operation of the rinse pump 29, so that the inconvenience that the drain pump 42 sucks air and cannot operate normally can be avoided. Will be able to
[0081]
Note that the control device 60 determines whether or not the start switch 11 has been operated in step S22 after stopping the operation of the rinse pump 29 in step S20 and before stopping the operation of the drainage pump 42 in step S24. If it is determined and operated, the operation of the drainage pump 42 is stopped to start a new cleaning operation (step S25), and the drainage of the cleaning water in the cleaning tank 9 is completed.
[0082]
Accordingly, when the start switch 11 is operated and the cleaning process is started in a state where only the drain pump 42 is operated, the control device 60 stops the drain pump 42. When the pump 27 is operated, the water level in the washing tank 9 is changed, so that it is possible to prevent the drain pump 42 from running idle. As a result, it is possible to suppress occurrence of a failure of the drain pump 42 and shortening of life.
[0083]
In the present embodiment, it is assumed that the operating time of the rinsing pump 29 in the rinsing step is variable. Further, the control device changes the operation time of the drainage pump 42 according to the change of the operation time of the rinse pump 29. Thus, the rinsing time can be changed according to the state of the object to be cleaned, and the convenience is improved. Further, since the operation time of the drain pump 42 is automatically changed in accordance with the operation time of the rinsing pump 29, it is possible to simplify the setting work at the time of changing the operation time, and to reduce the operation time of the drain pump 42. Water leakage due to forgetting to change can be prevented.
[0084]
When the one-day cleaning operation is completed, all the cleaning water in the cleaning tank 9 is drained. For this reason, the worker raises the drainage adjustment tool 53 upward and turns it, for example, approximately 90 °, so that the corner of the drainage adjustment tool 53 is locked to the drainage adjustment tool support member 55. As a result, the drain pump filter set 45 is in a state of being lifted upward, and an interval is formed between the drain pipe holder 51 and the drain port 43. As a result, the apparatus enters a drain standby state. This operation is described on the label 13 affixed to the side of the control panel 5 as described above, so that a correct drainage procedure can be easily presented to the operator.
[0085]
Here, the operation during the drain operation will be described with reference to FIG. In the drain standby state as described above, the power switch 6 is turned off in advance (step S31). Then, in this state, when the start switch 11 is operated (Step S32), the control device 60 starts the drain operation. In the drainage operation, the control device 60 operates the drainage pump 42 (step S33), stops the operation of the drainage pump 42 after a lapse of a predetermined time, approximately two minutes in this embodiment, and starts the operation of the rinse pump 29 (step S33). S34, 35). Thereafter, the control device 60 stops the operation of the rinse pump 29 after a predetermined time, for example, 15 seconds, has elapsed since the start of the operation of the rinse pump 29, and starts the operation of the drainage pump 42 (steps S36 and S37). Thereafter, the control device 60 stops the operation of the drain pump 42 after a predetermined time, for example, 45 seconds, has elapsed from the start of the operation of the drain pump 42 (steps S38 and S39), and ends the drain operation.
[0086]
Thus, the washing water in the washing tank 9 can be efficiently drained to the sink or the like via the drain pump 42 without overflowing to the outside. In particular, in this embodiment, the rinsing pump 29 is operated during the draining operation, so that the cleaning tank 9 and the drainage paths such as the drainage pump 42 and the drainage hose 46 can be washed with relatively clean rinsing water. Thus, the inside of the washing tank 9 and the drainage path can be maintained in a sanitary manner.
[0087]
Also, as described above, in the drainage operation, the control device 60 operates the drainage pump 42 for a longer time than the operation time of the rinse pump 29. Therefore, the drainage pump 42 is configured by a pump having a smaller capacity than the rinse pump 29. Even in this case, the drainage treatment in the cleaning tank 9 can be performed.
[0088]
In this embodiment, the control device 60 can change the operation time of the drain pump 42 during the drain operation. Therefore, the operation time of the drain pump 42 can be changed according to the time required for drainage that changes depending on the degree of contamination of the wash water. The inconvenience of remaining washing water can be avoided.
[0089]
In addition, although not shown in FIG. 12, when the power switch 6 is turned on from the OFF state during the drain operation, the control device 60 stops the drain pump 42. Accordingly, even if the drainage operation is performed by mistake, the operation of the drainage pump 42 is stopped, so that the cleaning water remaining in the cleaning tank 9 can be used for the next cleaning operation. become able to.
[0090]
In addition, in the dishwasher DW of the present embodiment, the drainage pump 42 is operated even when the power switch 6 is turned off as described above. The inconvenience of terminating the operation can be avoided.
[0091]
Further, in this embodiment, by operating the start switch 11 in accordance with the ON / OFF state of the power switch 6, the start of both the cleaning operation and the drain operation can be performed, so that the control panel 5 can be simplified. Can be achieved.
[0092]
Next, a drainage operation based on the detection of an abnormal water level by the overflow prevention sensor 35 will be described with reference to FIG. When the power level of the cleaning water in the cleaning tank 9 rises regardless of whether the power switch 6 is ON or OFF (step S41), the controller 60 determines whether the overflow prevention sensor 35 has detected an abnormal water level (step S41). (Step S42) In step S43, the alarm buzzer 62 notifies the operator of an abnormal state. Thereafter, the control device 60 operates the drain pump 42 and prohibits the operation of the rinsing pump 29 and the cleaning pump 27 (step S44). That is, by prohibiting the operation of the rinsing pump 29, the shift to the cleaning process is also prohibited.
[0093]
In such a state, the controller 60 normally stops the operation of the drain pump 42 and the rinsing pump 29 And the prohibition of operation of the cleaning pump 27 is released (steps S45 and S46). After that, the control device 60 executes the detection of the abnormal water level by the overflow prevention sensor 35 (step S47), and if the abnormal water level is not detected by the overflow prevention sensor 35, proceeds to step S48 and cancels the alarm. On the other hand, if an abnormal water level is detected by the overflow prevention sensor 35 in step S47, the flow returns to step S44 again, and the drainage operation is performed.
[0094]
Thus, regardless of the ON / OFF state of the power switch 6, based on the output of the overflow prevention sensor 35, the control device 60 switches the drain pump 42 when the water level in the cleaning tank 9 rises above a predetermined value. Since the operation is performed, the water level in the cleaning tank 9 can be prevented from rising above a predetermined value. Thereby, the inconvenience of the object to be cleaned being immersed in the washed water can be avoided, and the object to be cleaned can be suitably cleaned.
[0095]
Further, even if the washing machine DW is not used, even if the level of the washing water in the washing tank 9 becomes abnormal due to the failure of the electromagnetic on-off valve or the like, the overflow prevention sensor 35 detects the abnormal level of the washing water as described above. Is detected and the drainage operation is performed, so that the inconvenience of water overflowing to the outside can be avoided.
[0096]
Further, as described above, when the drain pump 42 is operating, the control device 60 inhibits the operation of the rinsing pump 29, so that the operation of the rinsing pump 29 prevents the water level in the washing tank 9 from rising. Will be able to do it.
[0097]
Further, when the operation of the rinsing pump 29 is prohibited, the control device 60 prohibits the shift to the cleaning process. Therefore, the rinsing pump 29 is not operated, and the cleaning target cannot be finished in the rinsing process. The start of the cleaning step can be avoided.
[0098]
【The invention's effect】
As described above in detail, according to the present invention, a cleaning nozzle for spraying cleaning water to a cleaning target such as tableware in a cleaning chamber formed in a main body, and rinsing water to a cleaning target in the cleaning chamber. A rinsing nozzle for performing rinsing, a cleaning tank that opens below the cleaning chamber, stores cleaning water, and receives the cleaning water injected from the cleaning nozzle and the rinsing water injected from the rinsing nozzle; Tank, a cleaning pump that supplies the cleaning water in the cleaning tank to the cleaning nozzle, a rinse pump that supplies the rinsing water in the rinsing tank to the rinsing nozzle, and a forced cleaning water in the cleaning tank. A washing machine provided with a drain pump for discharging water to the pump and control means for controlling the operation of each pump, wherein the control means operates the washing pump during the washing operation to execute the washing step, and The pump is operated to perform the rinsing step, and the drain pump is operated for a longer time than the rinse pump in accordance with the operation of the rinse pump, so that the drainage of the washing tank is performed using a relatively small drain pump. It is possible to reduce the cost and avoid the disadvantage that the device itself becomes large.
[0099]
According to the second aspect of the present invention, the control means starts the operation of the drain pump in the rinsing step with a delay from the start of the operation of the rinse pump, so that the drain pump sucks air and cannot operate normally. Can be avoided.
[0100]
According to the invention of claim 3, in each of the above inventions, the operating time of the rinsing pump is variable, and the control means changes the operating time of the drain pump according to the operating time of the rinsing pump. The rinsing time can be changed according to the state of the cleaning object, and convenience is improved. In addition, since the operating time of the drainage pump is changed according to the operating time of the rinsing pump, the setting work at the time of changing the operating time can be simplified, and water leakage due to forgetting to change the operating time of the drainage pump can be achieved. Can be prevented.
[0101]
According to the invention of claim 4, in each of the above-mentioned inventions, the control means stops the drainage pump when the cleaning step is started in a state where only the drainage pump is operated. When the cleaning pump is operated, the water level in the cleaning tank is changed, so that it is possible to prevent the drain pump from running idle. As a result, it is possible to suppress occurrence of a failure of the drain pump and shortening of life.
[0102]
According to the invention of claim 5, in each of the above inventions, the control means performs the hot water supply operation for operating the rinsing pump to supply hot water into the washing tank a predetermined number of times, and operates the drain pump during the hot water supply operation. In addition, the rinsing water stored in the washing tank can be prevented from leaking from the washing tank, leaking, and overflowing to the outside.
[0103]
According to the invention of claim 6, in the above, since the control means operates the drainage pump a predetermined number of times before the number of times of performing the hot water supply operation ends, the washing water is previously determined in the washing tank by the hot water supply operation. The operation of the drain pump in a state where the water is stored to the reference water level is prohibited, and the washing water exceeding the reference water level can be drained to the outside by the drain pump. Accordingly, when the hot water supply operation is performed up to the reference water level, the drain pump can be stopped, and the idle operation of the drain pump can be suppressed. Further, the drainage of the washing water exceeding the reference water level can be smoothly performed by operating the drainage pump.
[0104]
According to the invention of claim 7, in the above, the control means continues the operation of the drain pump for a predetermined time after the end of the final hot water supply operation and operates the washing pump after the end of the drain pump. When the operation of the cleaning pump is started during the operation of the pump, the water level in the cleaning tank fluctuates, and the inconvenience of the drain pump running idle can be avoided.
[0105]
According to an eighth aspect of the present invention, in each of the above-mentioned inventions, an overflow prevention sensor for preventing overflow of the cleaning water in the cleaning tank is provided, and the control means controls the water level in the cleaning tank based on the output of the overflow prevention sensor. When the pressure rises above a predetermined value, the drain pump is operated, so that the water level in the washing tank can be prevented from rising above the predetermined value. Thereby, the inconvenience of the object to be cleaned being immersed in the washed water can be avoided, and the object to be cleaned can be suitably cleaned.
[0106]
According to the ninth aspect of the present invention, in the above, the control means inhibits the operation of the rinsing pump when the drain pump is operating, so that the water level in the washing tank is prevented from rising due to the operation of the rinsing pump. Will be able to
[0107]
According to the tenth aspect of the present invention, when the operation of the rinsing pump is prohibited, the control means prohibits the shift to the cleaning step. Therefore, the rinsing pump is not operated and the rinsing step of the object to be cleaned is performed. It is possible to avoid the start of the cleaning step in the state where the finishing cannot be performed.
[0108]
According to the eleventh aspect, in the eighth, ninth or tenth aspect, the control means includes a power switch, and the water level in the cleaning tank rises above a predetermined value based on the output of the overflow prevention sensor. In this case, the drain pump is operated even when the power switch is turned off. Therefore, even if the power switch is turned off, when the water in the washing tank reaches an abnormal water level, the drain pump is started. The operation can be performed, and even when the washing machine is not used, the inconvenience of water overflowing to the outside can be avoided.
[0109]
According to the twelfth aspect of the present invention, in each of the above aspects, the control means executes a drainage operation of operating the drainage pump to discharge the washing water in the washing tank, and the operating time of the drainage pump is variable. The operating time of the drainage pump can be changed according to the time required for drainage, which varies depending on the degree of contamination of the washing water, and the drainage cannot be completely drained during the operating time of the drainage pump. The disadvantage that water remains can be avoided.
[0110]
According to the thirteenth aspect of the present invention, in the above invention, the control means operates the rinsing pump during the draining operation, so that the cleaning tank and the drainage path can be washed with relatively clean rinsing water. Thus, the inside of the washing tank and the drainage path can be maintained in a sanitary manner.
[0111]
According to the invention of claim 14, in the above invention, the control means operates the drain pump from the start of the drain operation, then stops the drain pump to operate the rinse pump for a predetermined time, and stops the rinse pump. Thereafter, since the drainage pump is operated again longer than the operation time of the rinse pump, even when the drainage pump is configured by a pump having a smaller capacity than the rinse pump, the drainage of the cleaning water in the cleaning tank is performed. Will be able to do it.
[0112]
According to the fifteenth aspect, in the twelfth aspect, the thirteenth aspect, or the fourteenth aspect, the control means includes a power switch, and executes the operation of the drain pump even when the power switch is turned off. The inconvenience of terminating the operation with the washing water remaining in the tank can be avoided.
[0113]
According to the invention of claim 16, in the above invention, when the power switch is turned on from a state where the power switch is turned off, the control means stops the drain pump, so that the drain operation is erroneously performed. Even in this case, by stopping the operation of the drain pump 42, the washing water remaining in the washing tank 9 can be used for the next washing operation.
[Brief description of the drawings]
FIG. 1 is a front view of a dishwasher according to the present invention.
FIG. 2 is a partially transparent side view of the dishwasher.
FIG. 3 is a vertical sectional side view of the dishwasher.
FIG. 4 is a plan view of the dishwasher.
FIG. 5 is a perspective view of a sensor cover member.
FIG. 6 is a sectional view showing a state in which a drainage pump filter set is attached to a washing tank.
FIG. 7 is a cross-sectional view showing a state where a drainage pump filter set is detached from a cleaning tank.
FIG. 8 is a sectional view of a drainage pump filter set at the time of full drainage.
FIG. 9 is an electric block diagram of a control device.
FIG. 10 is a flowchart of a hot water supply operation.
FIG. 11 is a flowchart of a cleaning operation.
FIG. 12 is a flowchart of a drain operation.
FIG. 13 is a flowchart when an overflow level sensor detects an abnormal water level.
[Explanation of symbols]
DW dishwasher
1 body
2 washing room
5 Control panel
6 Power switch
9 Cleaning tank
11 Start switch
20, 22 Cleaning nozzle
21, 23 Rinse nozzle
25 Rinse tank
27 Cleaning pump
29 Rinse pump
35 Overflow prevention sensor
42 drainage pump
60 control device
62 alarm buzzer

Claims (16)

A cleaning nozzle that sprays washing water to a washing target such as tableware in a washing chamber configured in the main body to wash the washing target, and a rinsing nozzle that sprays rinsing water to the washing target in the washing chamber to perform rinsing. A washing tank that is opened below the washing chamber, stores the washing water, and receives the washing water injected from the washing nozzle and the rinsing water injected from the rinsing nozzle; and a rinse for storing the rinsing water. A tank, a cleaning pump for supplying the cleaning water in the cleaning tank to the cleaning nozzle, a rinsing pump for supplying the rinsing water in the rinsing tank to the rinsing nozzle, and forcing the cleaning water in the cleaning tank In a washing machine comprising a drainage pump that discharges water and control means for controlling the operation of each of the pumps,
The control unit is configured to operate the cleaning pump to perform a cleaning process during the cleaning operation, to perform the rinsing process by operating the rinsing pump, and to perform the rinsing of the drain pump with the operation of the rinsing pump. A washer characterized by operating longer than a pump. The washing machine according to claim 1, wherein the control unit starts the operation of the drain pump in the rinsing step with a delay from the start of the operation of the rinse pump. 3. The cleaning according to claim 1, wherein the operating time of the rinsing pump is variable, and the control unit changes the operating time of the drain pump according to the operating time of the rinsing pump. Machine. The said control means stops the said drain pump, when the said washing | cleaning process is started in the state where only the said drain pump is operating, The said Claim 2 or Claim 3 characterized by the above-mentioned. Washing machine. 2. The control device according to claim 1, wherein the control unit executes a hot water supply operation for supplying water into the cleaning tank by operating the rinse pump a predetermined number of times, and operates the drain pump during the hot water supply operation. 3. 2. The washer according to claim 3 or claim 4. The washing machine according to claim 5, wherein the control means operates the drain pump a predetermined number of times before the number of times of performing the hot water supply operation ends. 7. The cleaning machine according to claim 6, wherein the control means continues the operation of the drain pump for a predetermined time after the end of the last hot water supply operation, and operates the cleaning pump after the operation of the drain pump. . An overflow prevention sensor for preventing overflow of the cleaning water in the cleaning tank, wherein the control unit is configured to, when a water level in the cleaning tank rises from a predetermined value based on an output of the overflow prevention sensor, The washing machine according to claim 1, wherein the drain pump is operated. 9. The washing machine according to claim 8, wherein the control unit prohibits the operation of the rinsing pump when the drain pump is operating. The cleaning device according to claim 9, wherein the control unit prohibits a transition to the cleaning step when the operation of the rinsing pump is prohibited. The control means includes a power switch, and based on the output of the overflow prevention sensor, when the water level in the cleaning tank rises above a predetermined value, the drain pump is turned off even when the power switch is turned off. The washing machine according to claim 8, which is operated. The control means performs a drainage operation of operating the drainage pump to discharge washing water in the washing tank, and an operation time of the drainage pump is variable. The cleaning machine according to claim 2, claim 3, claim 4, claim 5, claim 6, claim 6, claim 7, claim 8, claim 9, claim 10, or claim 11. The washing machine according to claim 12, wherein the control means operates the rinsing pump during the drain operation. The control means, after operating the drain pump from the start of the drain operation, stops the drain pump to operate the rinse pump for a predetermined time, and after the stop of the rinse pump, the operating time of the rinse pump 14. The cleaning machine according to claim 13, wherein the drain pump is operated again for a longer time. 15. The cleaning machine according to claim 12, wherein the control unit includes a power switch, and executes the operation of the drain pump even when the power switch is turned off. The washing machine according to claim 15, wherein the control unit stops the drain pump when the power switch is turned on from a state where the power switch is turned off.

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